I am new to Mathematica and I have two questions that I really appreciate if you can help me to solve them.
1) I want to plot all the points (x, y) which satisfy the following equation:
y==11+(1+2x)((11x)/(5+10x))^((3y)/(3y-(5+x)))
Where x>0 and y>0.
2) Consider the following inequality where again x>0 and y >0:
y>11+(1+2x)((11x)/(5+10x))^((3y)/(3y-(5+x)))
I want to figure out range of y that satisfies the inequality given a specific x.
Any help is appreciated.
Does this help?
ListPlot[{x,y}/.FindInstance[y==11+(1+2x)((11x)/(5+10x))^((3y)/(3y-(5+x)))&&x>0&&y>0,{x,y},20]]
will find and plot 20 pairs of points.
Change that 20 to 200 and it will take longer to give you 200 pairs.
Change that 200 to 2000 and it will take far longer to give you 2000 pairs.
Finding "all" the points seems to be an infinite task.
You can restrict the range doing this
ListPlot[{x,y}/.FindInstance[y==11+(1+2x)((11x)/(5+10x))^((3y)/(3y-(5+x)))&&1000>x>0&&y>0,{x,y},3]]
It appears if you ask for more points than it can find that it may take a long time to decide that it can't find that many points.
N[FindInstance[y==11+(1+2x)((11x)/(5+10x))^((3y)/(3y-(5+x)))&&x>0&&y>0,{x,y}]] showed me {{x->4.10529,y->20.}} and x==4.10529,y==20.01 or y==20.02 or y=30 or y=1000000 all seem to satisfy your y>11+(1+2x)((11x)/(5+10x))^((3y)/(3y-(5+x))) condition. Does this work for you?
$\endgroup$
You can use Solve to find values of y for a given value of x:
yy[x_?NumericQ] := y /. NSolve[y==11+(1+2x)((11x)/(5+10x))^((3y)/(3y-(5+x))), y, Reals]
It's a bit slow, but it works:
yy[1] //AbsoluteTiming
yy[100] //AbsoluteTiming
{0.002267, {13.0802}}
{0.001798, {33.6105, 234.514}}
You can use Reduce to find the range of y values for a given x value:
rng[x_?NumericQ] := N @ Reduce[y > 11+(1+2x)((11x)/(5+10x))^((3y)/(3y-(5+x))), y, Reals]
For example:
rng[1]
rng[100]
y > 13.0802
33.6105 < y < 35. || y > 234.514
If you want to plot the variation of the y that satisfies your equation, you could try using Plot. I will use a domain where the function yy isn't too slow:
Plot[yy[x], {x, 30, 40}]
If you try this with a range with a lower x-bound, it will be too slow. In that case, I recommend a technique that I often suggest. Use NDSolveValue. For your case it would proceed as follows. Create the ODE and find an initial value:
eqn = y == 11+(1+2x)((11x)/(5+10x))^((3y)/(3y-(5+x)));
ode = D[eqn /. y->y[x], x];
y1 = yy[1]
{13.0802}
Then, use NDSolveValue (there is a singularity at the origin which I avoid by starting at $MachineEpsilon):
sol = NDSolveValue[{ode, y[1] == y1}, y, {x, $MachineEpsilon, 30}];
Visualization:
Plot[sol[t], {t, 0, 30}]
xandyare not free variables for which you can "change the value of both x and y dynamically." Do you mean you want to animate a point that traces along the curve? Or something else? $\endgroup$ContourPlot? $\endgroup$